Post on 25-Mar-2019
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Nail Biology: The Nail Apparatus Nail plate Proximal nail fold Nail matrix Nail bed Hyponychium
Nail Biology: The Nail Apparatus Lies immediately above the periosteum of the distal phalanx
The shape of the distal phalanx determines the shape and transverse curvature of the nail
The intimate anatomic relationship between nail and bone accounts for the bone alterations in nail disorders and vice versa
Nail Apparatus: Embryology Nail field develops during week 9 from the epidermis of the dorsal tip of the digit
Proximal border of the nail field extends downward and proximally into the dermis to create the nail matrix primordium
By week 15, the nail matrix is fully developed and starts to produce the nail plate
Nails develop from thickened areas of epidermis at the tips of each digit called nail fields. Later these nail fields migrate onto the dorsal surface surrounded laterally and proximally by folds of epidermis called nail folds.
Nail Func7on Protect the distal phalanx Enhance tactile discrimination Enhance ability to grasp small objects Scratching and grooming Natural weapon Aesthetic enhancement Pedal biomechanics
The Nail Plate Fully keratinized structure produced throughout life
Results from maturation and keratinization of the nail matrix epithelium
Attachments: Lateral: lateral nail folds Proximal: proximal nail fold (covers 1/3 of the plate) Inferior: nail bed Distal: separates from underlying tissue at the hyponychium
The Nail Plate Rectangular and curved in 2 axes
Transverse and horizontal Smooth, although longitudinal ridging ↑ with age
Ridge pattern used for forensic identification Homogeneously pink due to underling vessels Free edge is white
The Nail Plate Lunula:
visible portion of the nail matrix white, half-‐moon shaped area plate loosely attached to underlying epithelium
The Nail Plate Onychocorneal Band
Thin, distal transverse white band Marks distal portion of attachment of plate to bed Anatomic barrier against environmental hazards Disruption allows plate detachment (onycholysis)
Onychodermal Band Thin, distal pink band separating onychocorneal band from the free edge of the plate
The Nail Plate: Transverse Anatomy Nail plate consists of three portions:
Dorsal, intermediate, and ventral plates Dorsal and intermediate plates are produced by the nail matrix
The ventral plate is produced by the nail bed
Above the lunula, the plate consists only of the dorsal and intermediate portions
Nail Plate Thickness Plate progressively thickens from point of emergence to distal tip Mean thickness distal toenail: 1.65mm/1.38mm (m/f) Mean thickness distal fingernail: 0.6mm/0.5mm (m/f)
Thickness ↑ with age, esp. in 1st two decades Thickness depends on the length of the nail matrix and the nail bed
Nail Plate Thickness Thinning of the nails is usually a matrix disorder
Thickening of the nails is usually a consequence of nail bed disorders
Proximal Nail Fold Consists of dorsal and ventral portions
The dorsal portion is continuous with and anatomically similar to the skin of the dorsal digit but thinner and devoid of pilosebaceous units
Proximal Nail Fold The ventral portion is invisible from the exterior and is continuous proximally with the germinative nail matrix
It adheres to and covers ¼ of the nail plate and keratinizes with a granular layer
The limit between the proximal nail fold and the nail matrix can be histologically established at the site of disappearance of the granular layer
Proximal Nail Fold: Cu4cle Formed by the horny layer of the proximal nail fold Attached to the superficial nail plate Prevents separation of the plate from the fold Integrity of the cuticle is essential for nail homeostasis in this region
Proximal Nail Fold Dermis of the proximal fold contains capillaries that run parallel to the surface
Arterial and venous limbs of the capillaries are arranged in parallel rows and appear as fine regular loops
Proximal nail fold capillary morphology is altered in connective tissue diseases
Nail Matrix Specialized epithelial structure that lies above the midportion of the distal phalanx
Consists of a proximal (dorsal) and a distal (ventral) portion
Nail matrix keratinocytes keratinize in the absence of a granular layer to form the nail plate
Nail Matrix Kera7niza7on Maturation and differentiation of nail matrix keratinocytes occurs in a distally oriented diagonal axis (unlike the epidermis)
Keratinization of the proximal (dorsal) nail matrix cells produces the dorsal nail plate
Keratinization of the distal (ventral) nail matrix cells produces the intermediate nail plate
Nail Matrix Cornified onychocytes are composed mainly of keratin filaments, high sulfur matrix proteins, and the marginal band, which consists of precipitated cytoplasmic proteins
During keratinization of onychocytes, DNases and RNases degrade nuclear fragments. Incomplete degradation of nuclear material results in transient leukonychial spots
Nail Matrix Melanocytes Usually quiescent but can become activated and synthesize melanin, which is transferred to surrounding keratinocytes
Distal migration of melanin-‐containing keratinocytes gives rise to a diffuse or banded nail pigmentation (physiologic or pathologic)
Nail matrix melanocytes of Caucasians do not contain mature melanosomes which are normally found in the nails of Asians and blacks
Nail Bed Extends from the distal margin of the lunula to the onychodermal band
Nail bed epithelium is thin (2-‐5 cell layers) and firmly attached to the nail plate
Nail bed keratinization produces a thin, horny layer that forms the ventral nail plate
No granular layer and sparse melanocytes
Hyponychium Marks the anatomic area between the nail bed and the distal groove, where the nail plate detaches from the distal digit
Anatomy is similar to plantar and volar skin (a granular layer is present)
Normally covered by the distal nail plate
Basement Membrane Zone Antigenic structure is identical to that of the epidermis and is consistent throughout all portions of the nail apparatus
Thus, the nails are commonly involved in diseases associated with attack on BMZ components
Blood and Nerve Supply Nail Apparatus: lateral digital arteries and nerves
Nail Bed: encapsulated neurovascular structures called glomus bodies contain one to four AV anastomoses and nerve endings regulate blood supply to the digits in cold weather
Chemical Proper7es of the Nail Plate Low-‐sulfur keratins embedded in an amorphous matrix of high-‐sulfur proteins rich in cystine.
Water (20%) <18% = brittle; >30% = opaque and soft
Lipid (<5%): mainly cholesterol Trace inorganic elements: iron, zinc, calcium
Do not contribute to nail hardness
Chemical Proper7es Nail keratins:
80% hard “hair-‐type” keratins Acidic Ha 1-‐4 and basic Hb 1-‐4 keratins
20% soft “skin-‐type” keratins Epithelial keratins 5, 6, 14, 16, 17
Nail Growth Proceeds from 15 weeks IUL until death Fingernails:
3mm per month 3-‐6 months for replacement
Toenails: 1mm per month 12-‐18 months for replacement
Nail Growth Decreased Growth
Age > 50 Systemic illness Malnutrition Vascular disease Peripheral neuropathy Antimitotic drugs Onychomycosis Yellow nail syndrome
Accelerated Growth Pregnancy Finger trauma Psoriasis Oral retinoids Itraconazole
Nail Clippings Can Be Evaluated For… Drugs, chemicals and toxins DNA analysis Blood group typing Individual identification
Nail Signs 3 categories based on site of pathology:
1. Nail matrix 2. Nail bed 3. Nail plate (deposition of pigment)
Nail Signs due to Abnormal Matrix Func7on Beau’s Lines Pitting Onychorrhexis Trachyonychia Onychomadesis Koilonychia
Beau’s Lines Transverse depressions due to disruption of proximal matrix mitotic activity
Depth: extent of damage
Width: duration of insult
Mechanical trauma Proximal nail fold dz Systemic insult (all nails)
Beau’s Lines
Onychomadesis (nail shedding) Proximal detachment of the nail plate from the proximal nail fold
Due to a severe insult that produces complete arrest of matrix activity
Causes are the same as for Beau’s Lines
Onychomadesis
PiPng Punctate depressions of the nail plate surface
Foci of abnormal keratinization of the proximal matrix results in clusters of parakeratotic cells in the dorsal plate
Clusters easily detach, leaving pits
Pitting
What diseases produce piPng? Psoriasis-‐ deep and irregular
Alopecia areata-‐ superficial and geometric
Eczema
Pitting
Onychorrhexis Longitudinal ridging and fissuring of the plate
Diffuse thinning Indicates diffuse damage to the nail matrix Lichen planus Vasculopathy/ischemia Trauma, Tumors Normal aging
Trachyonychia (20 Nail Dystrophy) Nail roughness due to excessive longitudinal ridging
Proximal nail matrix damage by: Alopecia areata Lichen planus Psoriasis Eczema
True Leukonychia
True Leukonychia Nail plate has a normal surface but loses its transparency and appears white because of parakeratotic cells within the ventral portion
Caused by diseases that disturb distal nail matrix keratinization
True Leukonychia: 3 Morphologic Variants Punctate:
opaque white spots, move distally with nail growth Due to trauma, common in kids
Transverse: Multiple opaque white parallel lines, traumatic Women: matrix trauma from manicures
Diffuse / Total Rare. Sometimes hereditary. May be assoc. w/ keratoderma and other congenital defects such as deafness
Par7al/Punctate Leukonychia
Transverse Leukonychia
Leukonychia Totalis
Koilonychia (Spoon Nails) Thinned, concave nail plate due to upward eversion of the lateral edges
Physiologic in kids Iron deficiency anemia
Plummer-‐Vinson Hemochromatosis
What is this disease?
Esophageal webs, iron deficiency anemia, and koilonychia.
Nail Signs due to Nail Bed Disorders Onycholysis Onychauxis Apparent Leukonychia Splinter hemorrhages
Onycholysis Distal nail plate detachment from bed Environmental exposure
Psoriasis Infection UVR +/-‐ TCN Hyperthyroidism Subungual tumor
Onycholysis
Onychauxis Nail plate appears thickened due to subungual scales (nail bed hyperkeratosis)
Nail bed involvement by: Psoriasis Onychomycosis eczema
Onychauxis “Ram’s Horn Nails”
Apparent Leukonychia Nails are white because of abnormalities in the color of the nail bed
Nail plate transparency is maintained and the leukonychia does not move distally with nail growth
White color fades with pressure
Apparent Leukonychia Terry’s Nails: cirrhosis
Whole nail is white except 2mm distal red band
Muehrcke’s Nails: hypoalbumin; chemotherapy Multiple transverse white bands parallel to lunula
Half and Half Nails: chronic renal disease Leukonychia of the proximal half of the nail
Terry’s Nails (cirrhosis)
Splinter Hemorrhages Dark-‐red, longitudinal, distal subungual lines Trauma Psoriasis Onychomycosis
Proximal splinters Endocarditis Vasculitis Trichinosis APA Syndrome
Nail Signs due to Deposi7on of Pigment Exogenous-‐ convex proximal border
Opposite of lunula Endogenous-‐ concave proximal border
Parallels lunula Subungual-‐ onycholysis